Fertilization effects on biomass production, nutrient leaching and budgets in four stand development stages of short rotation forest poplar

Petros Georgiadis; Anders Tærø Nielsen; Inge Stupak; Sebastian Kepfer Rojas; Wenxin Zhang; Rodrigo Pinheiro Bastos; Karsten Raulund-Rasmussen

doi:10.1016/j.foreco.2017.04.020

Fertilization effects on biomass production, nutrient leaching and budgets in four stand development stages of short rotation forest poplar

Petros Georgiadis, Anders Tærø Nielsen, Inge Stupak, Sebastian Kepfer Rojas, Wenxin Zhang, Rodrigo Pinheiro Bastos, Karsten Raulund-Rasmussen

9 Citations (Scopus)

Abstract

Dedicated energy poplar plantations have a high biomass production potential in temperate regions, which may be further increased by improved management practices. The aim of this study was to investigate the effects of fertilization on short rotation forest poplar established on former arable land. We examined the effects on biomass production, net nutrient uptake in stems and branches, nutrient leaching fluxes and changes to the nutrient budgets calculated as inputs minus outputs. An experiment was carried out in four stands of different development stages, the establishment (EST), canopy-closure (CC), pre-thinning (PT), and late aggradation (LAG) stage. After fertilizing with NPK12-5-14 corresponding to 120 kg ha⁻¹ of N we measured the biomass production during three years and analysed biomass samples to assess the net nutrient uptake in stems and branches. We estimated nutrient leaching based on water fluxes modelled with CoupModel and soil solution analyses and calculated the nutrient budgets. Fertilization effects depended on the stage of stand development, but were inconsistent in time. The biomass production increased in EST in the first year after fertilization and in PT in the third year after fertilization, relative to the control. There were no effects in CC and LAG. Nitrogen leaching at 0.9-m depth ranged between 3 and 14 kg ha⁻¹ yr⁻¹ in the control plots of EST and PT and it was negligible in the CC stand. Nitrogen leaching doubled in EST in the year of fertilization with values up to 28 kg ha⁻¹ yr⁻¹ and it tripled in PT in the second year after fertilization, compared to the control. Budgets of N, P and K were negative in all unfertilized and some fertilized treatments, indicating that fertilization may be required to adequately sustain soil nutrient supply in the long term, as large amounts of nutrients will be removed when the biomass is harvested.

Original language	English
Journal	Forest Ecology and Management
Volume	397
Pages (from-to)	18-26
Number of pages	9
ISSN	0378-1127
DOIs	https://doi.org/10.1016/j.foreco.2017.04.020
Publication status	Published - 1 Aug 2017

Keywords

Bioenergy
CoupModel
Growth
Nitrogen
Nutrient fluxes
Water fluxes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.foreco.2017.04.020

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@article{76a525c1d2684138bdace2b741157714,

title = "Fertilization effects on biomass production, nutrient leaching and budgets in four stand development stages of short rotation forest poplar",

abstract = "Dedicated energy poplar plantations have a high biomass production potential in temperate regions, which may be further increased by improved management practices. The aim of this study was to investigate the effects of fertilization on short rotation forest poplar established on former arable land. We examined the effects on biomass production, net nutrient uptake in stems and branches, nutrient leaching fluxes and changes to the nutrient budgets calculated as inputs minus outputs. An experiment was carried out in four stands of different development stages, the establishment (EST), canopy-closure (CC), pre-thinning (PT), and late aggradation (LAG) stage. After fertilizing with NPK12-5-14 corresponding to 120 kg ha−1 of N we measured the biomass production during three years and analysed biomass samples to assess the net nutrient uptake in stems and branches. We estimated nutrient leaching based on water fluxes modelled with CoupModel and soil solution analyses and calculated the nutrient budgets. Fertilization effects depended on the stage of stand development, but were inconsistent in time. The biomass production increased in EST in the first year after fertilization and in PT in the third year after fertilization, relative to the control. There were no effects in CC and LAG. Nitrogen leaching at 0.9-m depth ranged between 3 and 14 kg ha−1 yr−1 in the control plots of EST and PT and it was negligible in the CC stand. Nitrogen leaching doubled in EST in the year of fertilization with values up to 28 kg ha−1 yr−1 and it tripled in PT in the second year after fertilization, compared to the control. Budgets of N, P and K were negative in all unfertilized and some fertilized treatments, indicating that fertilization may be required to adequately sustain soil nutrient supply in the long term, as large amounts of nutrients will be removed when the biomass is harvested.",

keywords = "Bioenergy, CoupModel, Growth, Nitrogen, Nutrient fluxes, Water fluxes",

author = "Petros Georgiadis and Nielsen, {Anders T{\ae}r{\o}} and Inge Stupak and {Kepfer Rojas}, Sebastian and Wenxin Zhang and Bastos, {Rodrigo Pinheiro} and Karsten Raulund-Rasmussen",

year = "2017",

month = aug,

day = "1",

doi = "10.1016/j.foreco.2017.04.020",

language = "English",

volume = "397",

pages = "18--26",

journal = "Forest Ecology and Management",

issn = "0378-1127",

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TY - JOUR

T1 - Fertilization effects on biomass production, nutrient leaching and budgets in four stand development stages of short rotation forest poplar

AU - Georgiadis, Petros

AU - Nielsen, Anders Tærø

AU - Stupak, Inge

AU - Kepfer Rojas, Sebastian

AU - Zhang, Wenxin

AU - Bastos, Rodrigo Pinheiro

AU - Raulund-Rasmussen, Karsten

PY - 2017/8/1

Y1 - 2017/8/1

N2 - Dedicated energy poplar plantations have a high biomass production potential in temperate regions, which may be further increased by improved management practices. The aim of this study was to investigate the effects of fertilization on short rotation forest poplar established on former arable land. We examined the effects on biomass production, net nutrient uptake in stems and branches, nutrient leaching fluxes and changes to the nutrient budgets calculated as inputs minus outputs. An experiment was carried out in four stands of different development stages, the establishment (EST), canopy-closure (CC), pre-thinning (PT), and late aggradation (LAG) stage. After fertilizing with NPK12-5-14 corresponding to 120 kg ha−1 of N we measured the biomass production during three years and analysed biomass samples to assess the net nutrient uptake in stems and branches. We estimated nutrient leaching based on water fluxes modelled with CoupModel and soil solution analyses and calculated the nutrient budgets. Fertilization effects depended on the stage of stand development, but were inconsistent in time. The biomass production increased in EST in the first year after fertilization and in PT in the third year after fertilization, relative to the control. There were no effects in CC and LAG. Nitrogen leaching at 0.9-m depth ranged between 3 and 14 kg ha−1 yr−1 in the control plots of EST and PT and it was negligible in the CC stand. Nitrogen leaching doubled in EST in the year of fertilization with values up to 28 kg ha−1 yr−1 and it tripled in PT in the second year after fertilization, compared to the control. Budgets of N, P and K were negative in all unfertilized and some fertilized treatments, indicating that fertilization may be required to adequately sustain soil nutrient supply in the long term, as large amounts of nutrients will be removed when the biomass is harvested.

AB - Dedicated energy poplar plantations have a high biomass production potential in temperate regions, which may be further increased by improved management practices. The aim of this study was to investigate the effects of fertilization on short rotation forest poplar established on former arable land. We examined the effects on biomass production, net nutrient uptake in stems and branches, nutrient leaching fluxes and changes to the nutrient budgets calculated as inputs minus outputs. An experiment was carried out in four stands of different development stages, the establishment (EST), canopy-closure (CC), pre-thinning (PT), and late aggradation (LAG) stage. After fertilizing with NPK12-5-14 corresponding to 120 kg ha−1 of N we measured the biomass production during three years and analysed biomass samples to assess the net nutrient uptake in stems and branches. We estimated nutrient leaching based on water fluxes modelled with CoupModel and soil solution analyses and calculated the nutrient budgets. Fertilization effects depended on the stage of stand development, but were inconsistent in time. The biomass production increased in EST in the first year after fertilization and in PT in the third year after fertilization, relative to the control. There were no effects in CC and LAG. Nitrogen leaching at 0.9-m depth ranged between 3 and 14 kg ha−1 yr−1 in the control plots of EST and PT and it was negligible in the CC stand. Nitrogen leaching doubled in EST in the year of fertilization with values up to 28 kg ha−1 yr−1 and it tripled in PT in the second year after fertilization, compared to the control. Budgets of N, P and K were negative in all unfertilized and some fertilized treatments, indicating that fertilization may be required to adequately sustain soil nutrient supply in the long term, as large amounts of nutrients will be removed when the biomass is harvested.

KW - Bioenergy

KW - CoupModel

KW - Growth

KW - Nitrogen

KW - Nutrient fluxes

KW - Water fluxes

U2 - 10.1016/j.foreco.2017.04.020

DO - 10.1016/j.foreco.2017.04.020

M3 - Journal article

SN - 0378-1127

VL - 397

SP - 18

EP - 26

JO - Forest Ecology and Management

JF - Forest Ecology and Management

ER -

Fertilization effects on biomass production, nutrient leaching and budgets in four stand development stages of short rotation forest poplar

Abstract

Keywords

UN SDGs

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